Sandra Rosenthal
Last active: 3/26/2019

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Publications

The following timeline graph is generated from all co-authored publications.

Featured publications are shown below:

  1. Biotinylated-spiperone ligands for quantum dot labeling of the dopamine D2 receptor in live cell cultures. Tomlinson ID, Kovtun O, Crescentini TM, Rosenthal SJ (2019) Bioorg Med Chem Lett 29(8): 959-964
    › Primary publication · 30808590 (PubMed)
  2. Switching winter and summer photoperiods in an animal model of bipolar disorder. Rosenthal SJ, McCarty R (2019) Neuropsychopharmacology
    › Primary publication · 30787426 (PubMed)
  3. Role of Surface Morphology on Exciton Recombination in Single Quantum Dot-in-Rods Revealed by Optical and Atomic Structure Correlation. Reid KR, McBride JR, La Croix AD, Freymeyer NJ, Click SM, Macdonald JE, Rosenthal SJ (2018) ACS Nano 12(11): 11434-11445
    › Primary publication · 30403844 (PubMed)
  4. Nanotechnology in Neuroscience Reveals Membrane Mobility Matters. Rosenthal SJ (2019) ACS Chem Neurosci 10(1): 30-32
    › Primary publication · 30284809 (PubMed)
  5. Single Quantum Dot Tracking Illuminates Neuroscience at the Nanoscale. Kovtun O, Tomlinson ID, Bailey DM, Thal LB, Ross EJ, Harris L, Frankland MP, Ferguson RS, Glaser Z, Greer J, Rosenthal SJ (2018) Chem Phys Lett : 741-752
    › Primary publication · 30270931 (PubMed) · PMC6157616 (PubMed Central)
  6. Chemical Structure, Ensemble and Single-Particle Spectroscopy of Thick-Shell InP-ZnSe Quantum Dots. Reid KR, McBride JR, Freymeyer NJ, Thal LB, Rosenthal SJ (2018) Nano Lett 18(2): 709-716
    › Primary publication · 29282985 (PubMed) · PMC6163126 (PubMed Central)
  7. Continuous-wave lasing in colloidal quantum dot solids enabled by facet-selective epitaxy. Fan F, Voznyy O, Sabatini RP, Bicanic KT, Adachi MM, McBride JR, Reid KR, Park YS, Li X, Jain A, Quintero-Bermudez R, Saravanapavanantham M, Liu M, Korkusinski M, Hawrylak P, Klimov VI, Rosenthal SJ, Hoogland S, Sargent EH (2017) Nature 544(7648): 75-79
    › Primary publication · 28321128 (PubMed)
  8. Antibody-Conjugated Single Quantum Dot Tracking of Membrane Neurotransmitter Transporters in Primary Neuronal Cultures. Bailey DM, Kovtun O, Rosenthal SJ (2017) Methods Mol Biol : 165-177
    › Primary publication · 28238136 (PubMed)
  9. Design of a Hole Trapping Ligand. La Croix AD, O'Hara A, Reid KR, Orfield NJ, Pantelides ST, Rosenthal SJ, Macdonald JE (2017) Nano Lett 17(2): 909-914
    › Primary publication · 28090767 (PubMed)
  10. Quantum Yield Heterogeneity among Single Nonblinking Quantum Dots Revealed by Atomic Structure-Quantum Optics Correlation. Orfield NJ, McBride JR, Wang F, Buck MR, Keene JD, Reid KR, Htoon H, Hollingsworth JA, Rosenthal SJ (2016) ACS Nano 10(2): 1960-8
    › Primary publication · 26849531 (PubMed)
  11. Synthetic Strategies for Semiconductor Nanocrystals Expressing Localized Surface Plasmon Resonance. Niezgoda JS, Rosenthal SJ (2016) Chemphyschem 17(5): 645-53
    › Primary publication · 26530667 (PubMed)
  12. Electrical Control of near-Field Energy Transfer between Quantum Dots and Two-Dimensional Semiconductors. Prasai D, Klots AR, Newaz AK, Niezgoda JS, Orfield NJ, Escobar CA, Wynn A, Efimov A, Jennings GK, Rosenthal SJ, Bolotin KI (2015) Nano Lett 15(7): 4374-80
    › Primary publication · 26027714 (PubMed)
  13. Single-quantum-dot tracking reveals altered membrane dynamics of an attention-deficit/hyperactivity-disorder-derived dopamine transporter coding variant. Kovtun O, Sakrikar D, Tomlinson ID, Chang JC, Arzeta-Ferrer X, Blakely RD, Rosenthal SJ (2015) ACS Chem Neurosci 6(4): 526-34
    › Primary publication · 25747272 (PubMed) · PMC5530757 (PubMed Central)
  14. Correlation of atomic structure and photoluminescence of the same quantum dot: pinpointing surface and internal defects that inhibit photoluminescence. Orfield NJ, McBride JR, Keene JD, Davis LM, Rosenthal SJ (2015) ACS Nano 9(1): 831-9
    › Primary publication · 25526260 (PubMed)
  15. Elimination of hole-surface overlap in graded CdS(x)Se(1-x) nanocrystals revealed by ultrafast fluorescence upconversion spectroscopy. Keene JD, McBride JR, Orfield NJ, Rosenthal SJ (2014) ACS Nano 8(10): 10665-73
    › Primary publication · 25203834 (PubMed)
  16. Plasmonic Cu(x)In(y)S2 quantum dots make better photovoltaics than their nonplasmonic counterparts. Niezgoda JS, Yap E, Keene JD, McBride JR, Rosenthal SJ (2014) Nano Lett 14(6): 3262-9
    › Primary publication · 24793489 (PubMed)
  17. Where's the silver? Imaging trace silver coverage on the surface of gold nanorods. Jackson SR, McBride JR, Rosenthal SJ, Wright DW (2014) J Am Chem Soc 136(14): 5261-3
    › Primary publication · 24660654 (PubMed)
  18. The possibility and implications of dynamic nanoparticle surfaces. McBride JR, Pennycook TJ, Pennycook SJ, Rosenthal SJ (2013) ACS Nano 7(10): 8358-65
    › Primary publication · 24124980 (PubMed)
  19. Quantum dot approaches for target-based drug screening and multiplexed active biosensing. Kovtun O, Arzeta-Ferrer X, Rosenthal SJ (2013) Nanoscale 5(24): 12072-81
    › Primary publication · 23946011 (PubMed)
  20. Quantum dot-based single-molecule microscopy for the study of protein dynamics. Chang JC, Rosenthal SJ (2013) Methods Mol Biol : 71-84
    › Primary publication · 23749570 (PubMed)
  21. Single quantum dot imaging in living cells. Chang JC, Rosenthal SJ (2013) Methods Mol Biol : 149-62
    › Primary publication · 23546667 (PubMed)
  22. Confirmation of disordered structure of ultrasmall CdSe nanoparticles from X-ray atomic pair distribution function analysis. Yang X, Masadeh AS, McBride JR, Božin ES, Rosenthal SJ, Billinge SJ (2013) Phys Chem Chem Phys 15(22): 8480-6
    › Primary publication · 23525376 (PubMed)
  23. Quantum dot conjugates of GABA and muscimol: binding to α1β2γ2 and ρ1 GABA(A) receptors. Gussin HA, Tomlinson ID, Cao D, Qian H, Rosenthal SJ, Pepperberg DR (2013) ACS Chem Neurosci 4(3): 435-43
    › Primary publication · 23509979 (PubMed) · PMC3605815 (PubMed Central)
  24. Serotonin uptake is largely mediated by platelets versus lymphocytes in peripheral blood cells. Beikmann BS, Tomlinson ID, Rosenthal SJ, Andrews AM (2013) ACS Chem Neurosci 4(1): 161-70
    › Primary publication · 23336055 (PubMed) · PMC3547482 (PubMed Central)
  25. Visualization of lipid raft membrane compartmentalization in living RN46A neuronal cells using single quantum dot tracking. Chang JC, Rosenthal SJ (2012) ACS Chem Neurosci 3(10): 737-43
    › Primary publication · 23077717 (PubMed) · PMC3474263 (PubMed Central)
  26. Labeling of neuronal receptors and transporters with quantum dots. Chang JC, Kovtun O, Blakely RD, Rosenthal SJ (2012) Wiley Interdiscip Rev Nanomed Nanobiotechnol 4(6): 605-19
    › Primary publication · 22887823 (PubMed) · PMC3753009 (PubMed Central)
  27. Visualization of the cocaine-sensitive dopamine transporter with ligand-conjugated quantum dots. Kovtun O, Tomlinson ID, Sakrikar DS, Chang JC, Blakely RD, Rosenthal SJ (2011) ACS Chem Neurosci 2(7): 370-8
    › Primary publication · 22816024 (PubMed) · PMC3369746 (PubMed Central)
  28. Single molecule analysis of serotonin transporter regulation using antagonist-conjugated quantum dots reveals restricted, p38 MAPK-dependent mobilization underlying uptake activation. Chang JC, Tomlinson ID, Warnement MR, Ustione A, Carneiro AM, Piston DW, Blakely RD, Rosenthal SJ (2012) J Neurosci 32(26): 8919-29
    › Primary publication · 22745492 (PubMed) · PMC3426861 (PubMed Central)
  29. Dynamic fluctuations in ultrasmall nanocrystals induce white light emission. Pennycook TJ, McBride JR, Rosenthal SJ, Pennycook SJ, Pantelides ST (2012) Nano Lett 12(6): 3038-42
    › Primary publication · 22568665 (PubMed)
  30. Bright white light emission from ultrasmall cadmium selenide nanocrystals. Rosson TE, Claiborne SM, McBride JR, Stratton BS, Rosenthal SJ (2012) J Am Chem Soc 134(19): 8006-9
    › Primary publication · 22564050 (PubMed)
  31. A flow cytometry-based dopamine transporter binding assay using antagonist-conjugated quantum dots. Kovtun O, Ross EJ, Tomlinson ID, Rosenthal SJ (2012) Chem Commun (Camb) 48(44): 5428-30
    › Primary publication · 22543630 (PubMed)
  32. 4-(4-(dimethylamino)phenyl)-1-methylpyridinium (APP+) is a fluorescent substrate for the human serotonin transporter. Solis E, Zdravkovic I, Tomlinson ID, Noskov SY, Rosenthal SJ, De Felice LJ (2012) J Biol Chem 287(12): 8852-63
    › Primary publication · 22291010 (PubMed) · PMC3308769 (PubMed Central)
  33. A fluorescence displacement assay for antidepressant drug discovery based on ligand-conjugated quantum dots. Chang JC, Tomlinson ID, Warnement MR, Iwamoto H, DeFelice LJ, Blakely RD, Rosenthal SJ (2011) J Am Chem Soc 133(44): 17528-31
    › Primary publication · 21970724 (PubMed) · PMC3235909 (PubMed Central)
  34. Synthesis, Surface Studies, Composition and Structural Characterization of CdSe, Core/Shell, and Biologically Active Nanocrystals. Rosenthal SJ, McBride J, Pennycook SJ, Feldman LC (2007) Surf Sci Rep 62(4): 111-157
    › Primary publication · 21479151 (PubMed) · PMC3071516 (PubMed Central)
  35. Real-time quantum dot tracking of single proteins. Chang JC, Rosenthal SJ (2011) Methods Mol Biol : 51-62
    › Primary publication · 21424442 (PubMed)
  36. Single-nanocrystal spectroscopy of white-light-emitting CdSe nanocrystals. Dukes AD, Samson PC, Keene JD, Davis LM, Wikswo JP, Rosenthal SJ (2011) J Phys Chem A 115(16): 4076-81
    › Primary publication · 21338163 (PubMed)
  37. Biotin tethered homotryptamine derivatives: high affinity probes of the human serotonin transporter (hSERT). Tomlinson ID, Iwamoto H, Blakely RD, Rosenthal SJ (2011) Bioorg Med Chem Lett 21(6): 1678-82
    › Primary publication · 21334895 (PubMed) · PMC3070488 (PubMed Central)
  38. Biocompatible quantum dots for biological applications. Rosenthal SJ, Chang JC, Kovtun O, McBride JR, Tomlinson ID (2011) Chem Biol 18(1): 10-24
    › Primary publication · 21276935 (PubMed) · PMC3752999 (PubMed Central)
  39. On Ultrasmall Nanocrystals. McBride JR, Dukes AD, Schreuder MA, Rosenthal SJ (2010) Chem Phys Lett 498(1-3): 1-9
    › Primary publication · 21132106 (PubMed) · PMC2994270 (PubMed Central)
  40. GABAC receptor binding of quantum-dot conjugates of variable ligand valency. Gussin HA, Tomlinson ID, Muni NJ, Little DM, Qian H, Rosenthal SJ, Pepperberg DR (2010) Bioconjug Chem 21(8): 1455-64
    › Primary publication · 20715850 (PubMed) · PMC2929923 (PubMed Central)
  41. PbS/PbSe structures with core-shell type morphology synthesized from PbS nanocrystals. Koktysh DS, McBride JR, Dixit SK, Feldman LC, Rosenthal SJ (2007) Nanotechnology 18(49): 495607
    › Primary publication · 20442480 (PubMed)
  42. Few-layer graphene as a support film for transmission electron microscopy imaging of nanoparticles. McBride JR, Lupini AR, Schreuder MA, Smith NJ, Pennycook SJ, Rosenthal SJ (2009) ACS Appl Mater Interfaces 1(12): 2886-92
    › Primary publication · 20356171 (PubMed)
  43. Photosystem I - based biohybrid photoelectrochemical cells. Ciesielski PN, Hijazi FM, Scott AM, Faulkner CJ, Beard L, Emmett K, Rosenthal SJ, Cliffel D, Kane Jennings G (2010) Bioresour Technol 101(9): 3047-53
    › Primary publication · 20064713 (PubMed)
  44. White light-emitting diodes based on ultrasmall CdSe nanocrystal electroluminescence. Schreuder MA, Xiao K, Ivanov IN, Weiss SM, Rosenthal SJ (2010) Nano Lett 10(2): 573-6
    › Primary publication · 20063863 (PubMed)
  45. Targeting the human serotonin transporter (hSERT) with quantum dots. Tomlinson ID, Chang J, Iwamoto H, De Felice LJ, Blakely RD, Rosenthal SJ (2008) Proc SPIE Int Soc Opt Eng 6866(68660X): nihpa155701
    › Primary publication · 19936040 (PubMed) · PMC2779040 (PubMed Central)
  46. Neurotoxin quantum dot conjugates detect endogenous targets expressed in live cancer cells. Orndorff RL, Rosenthal SJ (2009) Nano Lett 9(7): 2589-99
    › Primary publication · 19507837 (PubMed)
  47. Structure and ultrafast dynamics of white-light-emitting CdSe nanocrystals. Bowers MJ, McBride JR, Garrett MD, Sammons JA, Dukes AD, Schreuder MA, Watt TL, Lupini AR, Pennycook SJ, Rosenthal SJ (2009) J Am Chem Soc 131(16): 5730-1
    › Primary publication · 19341271 (PubMed)
  48. Quantum dots: putting the squeeze on nanocrystals. Rosenthal SJ, McBride JR (2009) Nat Nanotechnol 4(1): 16-7
    › Primary publication · 19119274 (PubMed)
  49. Controlling the reactivity of ampiphilic quantum dots in biological assays through hydrophobic assembly of custom PEG derivatives. Warnement MR, Tomlinson ID, Chang JC, Schreuder MA, Luckabaugh CM, Rosenthal SJ (2008) Bioconjug Chem 19(7): 1404-13
    › Primary publication · 18529022 (PubMed)
  50. Imaging GABAc receptors with ligand-conjugated quantum dots. Tomlinson ID, Gussin HA, Little DM, Warnement MR, Qian H, Pepperberg DR, Rosenthal SJ (2007) J Biomed Biotechnol : 76514
    › Primary publication · 18437227 (PubMed) · PMC2323551 (PubMed Central)
  51. Effects of surface passivation on the exciton dynamics of CdSe nanocrystals as observed by ultrafast fluorescence upconversion spectroscopy. Kippeny TC, Bowers MJ, Dukes AD, McBride JR, Orndorff RL, Garrett MD, Rosenthal SJ (2008) J Chem Phys 128(8): 084713
    › Primary publication · 18315078 (PubMed)
  52. Quantum dot ex vivo labeling of neuromuscular synapses. Orndorff RL, Warnement MR, Mason JN, Blakely RD, Rosenthal SJ (2008) Nano Lett 8(3): 780-5
    › Primary publication · 18237149 (PubMed)
  53. Synthesis and characterization of a pegylated derivative of 3-(1,2,3,6-tetrahydro-pyridin-4yl)-1H-indole (IDT199): a high affinity SERT ligand for conjugation to quantum dots. Tomlinson ID, Warnerment MR, Mason JN, Vergne MJ, Hercules DM, Blakely RD, Rosenthal SJ (2007) Bioorg Med Chem Lett 17(20): 5656-60
    › Primary publication · 17766114 (PubMed)
  54. Quantum dot probes for monitoring dynamic cellular response: reporters of T cell activation. Warnement MR, Faley SL, Wikswo JP, Rosenthal SJ (2006) IEEE Trans Nanobioscience 5(4): 268-72
    › Primary publication · 17181026 (PubMed)
  55. Binding of muscimol-conjugated quantum dots to GABAC receptors. Gussin HA, Tomlinson ID, Little DM, Warnement MR, Qian H, Rosenthal SJ, Pepperberg DR (2006) J Am Chem Soc 128(49): 15701-13
    › Primary publication · 17147380 (PubMed) · PMC2553244 (PubMed Central)
  56. Universal polyethylene glycol linkers for attaching receptor ligands to quantum dots. Tomlinson ID, Gies AP, Gresch PJ, Dillard J, Orndorff RL, Sanders-Bush E, Hercules DM, Rosenthal SJ (2006) Bioorg Med Chem Lett 16(24): 6262-6
    › Primary publication · 17000112 (PubMed)
  57. Homogeneously alloyed CdSxSe1-x nanocrystals: synthesis, characterization, and composition/size-dependent band gap. Swafford LA, Weigand LA, Bowers MJ, McBride JR, Rapaport JL, Watt TL, Dixit SK, Feldman LC, Rosenthal SJ (2006) J Am Chem Soc 128(37): 12299-306
    › Primary publication · 16967981 (PubMed)
  58. Visible light excitation of CdSe nanocrystals triggers the release of coumarin from cinnamate surface ligands. Wijtmans M, Rosenthal SJ, Zwanenburg B, Porter NA (2006) J Am Chem Soc 128(35): 11720-6
    › Primary publication · 16939297 (PubMed)
  59. Structural basis for near unity quantum yield core/shell nanostructures. McBride J, Treadway J, Feldman LC, Pennycook SJ, Rosenthal SJ (2006) Nano Lett 6(7): 1496-501
    › Primary publication · 16834437 (PubMed)
  60. High affinity inhibitors of the dopamine transporter (DAT): novel biotinylated ligands for conjugation to quantum dots. Tomlinson ID, Mason JN, Blakely RD, Rosenthal SJ (2006) Bioorg Med Chem Lett 16(17): 4664-7
    › Primary publication · 16784853 (PubMed)
  61. Surface modification to reduce nonspecific binding of quantum dots in live cell assays. Bentzen EL, Tomlinson ID, Mason J, Gresch P, Warnement MR, Wright D, Sanders-Bush E, Blakely R, Rosenthal SJ (2005) Bioconjug Chem 16(6): 1488-94
    › Primary publication · 16287246 (PubMed)
  62. White-light emission from magic-sized cadmium selenide nanocrystals. Bowers MJ, McBride JR, Rosenthal SJ (2005) J Am Chem Soc 127(44): 15378-9
    › Primary publication · 16262395 (PubMed)
  63. Inhibitors of the serotonin transporter protein (SERT): the design and synthesis of biotinylated derivatives of 3-(1,2,3,6-tetrahydro-pyridin-4-yl)-1H-indoles. High-affinity serotonergic ligands for conjugation with quantum dots. Tomlinson ID, Mason JN, Blakely RD, Rosenthal SJ (2005) Bioorg Med Chem Lett 15(23): 5307-10
    › Primary publication · 16183285 (PubMed)
  64. Peptide-conjugated quantum dots: imaging the angiotensin type 1 receptor in living cells. Tomlinson ID, Mason JN, Blakely RD, Rosenthal SJ (2005) Methods Mol Biol : 51-60
    › Primary publication · 15923674 (PubMed)
  65. Labeling cell-surface proteins via antibody quantum dot streptavidin conjugates. Mason JN, Tomlinson ID, Rosenthal SJ, Blakely RD (2005) Methods Mol Biol : 35-50
    › Primary publication · 15923673 (PubMed)
  66. Targeting cell surface receptors with ligand-conjugated nanocrystals. Rosenthal SJ, Tomlinson I, Adkins EM, Schroeter S, Adams S, Swafford L, McBride J, Wang Y, DeFelice LJ, Blakely RD (2002) J Am Chem Soc 124(17): 4586-94
    › Primary publication · 11971705 (PubMed)
  67. Bar-coding biomolecules with fluorescent nanocrystals. Rosenthal SJ (2001) Nat Biotechnol 19(7): 621-2
    › Primary publication · 11433268 (PubMed)